Bachmann Michael, Skripka Artiom, Weißenbruch Kai, Wehrle-Haller Bernhard, Bastmeyer Martin
Department for Cell Physiology and Metabolism, University of Geneva, Rue Michel-Servet 1, 1211 Geneva, Switzerland.
Zoological Institute, Cell- and Neurobiology, Karlsruhe Institute of Technology (KIT), Fritz-Haber-Weg 4, 76131 Karlsruhe, Germany.
J Cell Sci. 2022 Apr 1;135(7). doi: 10.1242/jcs.258764. Epub 2022 Apr 14.
Integrin-mediated adhesions are convergence points for multiple signaling pathways. Their inner structure and diverse functions can be studied with super-resolution microscopy. Here, we examined the spatial organization within focal adhesions by analyzing several adhesion proteins with structured illumination microscopy (SIM). Paxillin (Pax) serves as a scaffold protein and signaling hub in focal adhesions, and focal adhesion kinase (FAK, also known as PTK2) regulates the dynamics of adhesions. We found that their phosphorylated forms, pPax and pFAK, form spot-like, spatially defined clusters within adhesions in several cell lines and confirmed these findings with additional super-resolution techniques. These clusters showed a more regular separation from each other compared with more randomly distributed signals for FAK or paxillin. Mutational analysis indicated that the active (open) FAK conformation is a prerequisite for the pattern formation of pFAK. Live-cell super-resolution imaging revealed that organization in clusters is preserved over time for FAK constructs; however, distance between clusters is dynamic for FAK, while paxillin is more stable. Combined, these data introduce spatial clusters of pPax and pFAK as substructures in adhesions and highlight the relevance of paxillin-FAK binding for establishing a regular substructure in focal adhesions.
整合素介导的黏附是多种信号通路的汇聚点。它们的内部结构和多样功能可通过超分辨率显微镜进行研究。在此,我们通过结构光照显微镜(SIM)分析几种黏附蛋白,研究了黏着斑内的空间组织。桩蛋白(Pax)在黏着斑中作为支架蛋白和信号枢纽发挥作用,而黏着斑激酶(FAK,也称为PTK2)调节黏附的动力学。我们发现,它们的磷酸化形式,即磷酸化桩蛋白(pPax)和磷酸化黏着斑激酶(pFAK),在几种细胞系的黏附结构内形成点状、具有空间定义的簇,并通过其他超分辨率技术证实了这些发现。与黏着斑激酶或桩蛋白更随机分布的信号相比,这些簇彼此之间的分离更规则。突变分析表明,活性(开放)的黏着斑激酶构象是磷酸化黏着斑激酶模式形成的先决条件。活细胞超分辨率成像显示,对于黏着斑激酶构建体,簇的组织随时间得以保留;然而,对于黏着斑激酶来说,簇之间的距离是动态变化的,而桩蛋白则更稳定。综合来看,这些数据表明磷酸化桩蛋白和磷酸化黏着斑激酶的空间簇是黏附结构中的亚结构,并突出了桩蛋白 - 黏着斑激酶结合对于在黏着斑中建立规则亚结构的相关性。
